在线提供 19 October 2023
There is an increasing interest in the development of Mg alloys,
both for industrial and biomedical applications, due to their favorable
characteristics such as being lightweight and robust. However, the
inadequate corrosion resistance and
lack of antibacterial properties pose significant challenges in the
industrial and biomedical applications, necessitating the implementation
of advanced coating engineering techniques. Plasma electrolytic
oxidation (PEO) has emerged as a preferred coating technique because of
its distinctive properties and successful surface modification results.
However, there is a continuous need for further enhancements to optimize
the performance and functionalities of protective surface treatments.
The integration of layered double hydroxide (LDH) into PEO coatings on
Mg alloys presents a promising approach to bolstering protective
properties. This thorough review delves into the latest developments in
integrating LDH into PEO coatings for corrosion-related purposes. It
particularly emphasizes the significant improvements in corrosion resistance,
antibacterial effectiveness, and photocatalytic performance resulting
from the incorporation of LDH into PEO coatings. The two key mechanisms
that enhance the corrosion resistance of PEO coatings containing LDH are
the anion exchangeability of the LDH structure and the pore-sealing
effect. Moreover, the antibacterial activity of PEO coatings with LDH
stemmed from the release of antibacterial agents stored within the LDH
structure, alterations in pH levels, and the photothermal conversion
property. Furthermore, by incorporating LDH into PEO coatings, new
opportunities emerge for tackling environmental issues through boosted
photocatalytic properties, especially in the realm of pollutant
degradation.